APES Unit 3 Notes - Specialist vs. Generalist, K-selected vs. r-selected, Survivorship Curves

Summary

These APES notes cover specialist vs. generalist species, and k-selected versus r-selected species. They include diagrams showcasing survivorship curves and population dynamics.

Full Transcript

3.1
Specialist vs.
Generalist Species
Specialists: Smaller range of
tolerance, or narrower ecological
niche makes them more prone to
extinction
- Specific food requirements
(bamboo)
- Less ability to adapt to new
conditions
Generalists: Larger range of
tolerance, broader niche makes
them less prone to extinction & more
likely to be invasive
- Broad food req.
- High adaptability
GENERALISTS VS. SPECIALISTS
“ Identify ONE characteristic of
specialist species and explain how
that characteristic makes them more
likely to become extinct than
generalist species.

5
3.2
K-selected &
r-selected species
Objectives, EKs, and Skills
 r-selected - “quantity”
Quality vs. Quantity ▰ Many offspring, little to no parental care
K-selected - “quality” ▰ May reproduce only once, but generally
reproduce many times throughout
▰ Few offspring, heavy parental care lifespan
to protect them ▻ Ex: insects, fish, plants
▰ Generally have fewer reproductive ▰ Shorter lifespan, quick to sexual
events than r-strategists maturity = high biotic potential = high
▻ Ex: most mammals, birds population growth rate
▰ Long lifespan, long time to sexual ▻ More likely to be invasive
maturity = low biotic potential = ▻ Better suited for rapidly changing
slow population growth rate environmental conditions
▻ More likely to be disrupted by
environmental change or
invasive species
 r-selected:

Habitats/Populations ▰ Usually live in habitats with lower
competition for resources
▰ Population are more likely to fluctuate
K-selected:
above and below carrying capacity
▰ Usually live in habitats with higher (overshoot and die-off)
competition for resources ▻ “r” is the variable used to represent
▰ Populations that reach carrying maximum reproductive rate in
capacity (K) usually remain at ecology
stable size, near K ▻ Hence, r-selected or r-strategist
▻ Hence, K-selected or
K-strategist
Traits or characteristics of
r-selected & K-selected
species 10
It’s a Spectrum
Spectrum of Parental Care
 K-selected r-selected
▰ Low biotic potential (rep. rate) = ▰ High biotic potential (rep. rate) = more
hard for pop. to recover after a rapid pop. recovery after disturbance
disturbance (env. change) ▰ Low parental care means death of
▰ High parental care means death of parent doesn’t impact offspring
parent = death of offspring ▰ Not as impacted by invasive species
▰ Invasives (usually r) outcompete since their pop. grow quickly
for resources with high biotic ▻ More likely to be the invasive
potential & rapid pop. growth ▰ Larger pop. & faster generation time =
▰ Less likely to adapt & more likely higher chance of adaptation & lower
to go extinct chance of extinction

Invasiveness & Disturbances 13
“
Identify ONE characteristic of an
r-selected species that could increase
the likelihood of the r-selected species
becoming a more successful invasive
species than K-selected species

14
Describe the relationship between Zebra Mussel
and Unionid Mussel population density in the
Hudson River 15
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16
3.3
Survivorship
Curves
Objectives, EKs, and Skills
 ★ Faster drop in line =
quicker die-off of
individuals
★ Slower drop in line =
longer avg. lifespan

Survivorship Curve: line that shows survival
rate of a cohort (group of same-aged
individuals) in a pop. from birth to death
Type I, II, and III Survivorship
Type I (mostly K-selected) Type III (mostly r-selected)
▰ High survivorship early in life due ▰ High mortality (low survivorship) early
to high parental care in life due to little to no parental care
▰ High survivorship in mid life due to ▰ Few make it to midlife; slow, steady
large size & defensive behavior decline in survivorship in mid life
▰ Rapid decrease in survivorship in ▰ Even fewer make it to adulthood; slow
late life as old age sets in decline in survivorship in old age
▻ Ex: most mammals ▰ Ex: insects, fish, plants
Type II (in between r & K)
▰ Steadily decreasing survivorship
throughout life
FRQ Practice 3.3
Describe the trend in
survivorship shown in this
graph. Justify which type
of survivorship curve these
data represent.
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22
3.4
Carrying Capacity
Objectives, EKs, and Skills
 ★ Fig. 1 is
theoretical
★ Fig. 2 is more
realistic
★ Pop. briefly
“overshoots” (K)
and then die-off
happens

Fig. 1 Fig. 2

Carrying Capacity (K): the max. Number of
individuals in a pop. that an ecosystem can
support (based on limiting resources)
Carrying Capacity (K)
▰ Highest pop. size an ecosystem can ▰ Die-off: sharp decrease in pop. size
support based on limiting resources: when resource depletion (overshoot)
▻ Food leads to many individuals dying
▻ Water ▻ Ex: many deer starve with too
▻ Habitat (nesting sites, space) many new fawns feeding in
▰ Overshoot: when a population briefly spring
exceeds carrying capacity
▻ Ex: deer breed in fall, give birth all at
once in spring; sudden spike in pop. =
overshoot
▰ Consequence of overshoot: resource
depletion ex: overgrazing in deer
Die-off Example
▰ Reindeer of St. Paul Island
▻ 25 introduced in 1910
▻ Growth was gradual (10’-30’),
then exponential (30’-37’)
▻ Carrying capacity was overshot
▻ Sharp die-off lead to pop. crash
as food resource (lichen) were
severely depleted
▰ Real pops. don’t always fluctuate
around carrying capacity. If resource
depletion is severe enough, total pop.
crash can occur
Predator-Prey
1. Hare pop. increase due to
low predator pop. (lynx)
2. Lynx pop. increase due to
increase in food (hare)
3. Increasing lynx pop. limits
hare pop; leads to die-off
4. Hare die-off decreases lynx
food source, leading to
die-off
5. Hare pop. increase due to
low predator pop. (lynx)
FRQ Practice 3.4
Explain the impact that the
canine virus had on the
moose population based
on the graph.
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3.5
Pop. Growth &
Resource Availability
Objectives, EKs, and Skills
 Pop. Characteristics
▰ Size (N): total # of individuals in a given area
at a given time
▻ Larger = safer from population decline
▰ Density: # of individuals/area
▻ Ex: (12 panthers/km2)
▻ High density = higher competition,
possibility for disease outbreak, possibility
of depleting food source
▰ Distribution: how individuals in population are
spaced out compared to each other
▻ Random (trees)
▻ Uniform (territorial animals)
▻ Clumped (herd/group animals)
 Pop. Characteristics & Growth Factors
▰ Sex Ratio: ratio of males to females.
▰ Density-Independent Factors:
Closer to 50:50, the more ideal for breeding
factors that influence population
(usually)
growth independent of their size
▻ Die-off or bottleneck effect can lead to
skewed sex ratio (not enough ▻ Ex: natural disasters (flood,
females) limiting pop. growth hurricane, tornado, fire)
▻ It doesn’t matter how big or
▰ Density-Dependent Factors: factors that
small a pop. is, natural
influence population growth based on size:
disasters limit them both
▻ Ex: food, competition for habitat,
water, light, even disease
▻ All of these things limit pop. growth
based on their size; aka - small pop.
don’t experience these, large do
Ex. of Density-Dependent Factor
▰ Food is a density dependent factor.
(also a limiting resource)
▻ When twice as much food was
added to the dish, both species
increased carrying capacity by
about 2x
 Biotic potential =
exponential
growth

Logistic growth =
initial rapid
growth, then
limiting factors
limit pop. to K

▰ Biotic Potential = maximum potential growth rate, with no
limiting resources - also called intrinsic rate of increase (r)
▻ May occur initially, but limiting resources (competition,
food, disease, predators) slow growth, & eventually
limit pop. to carrying capacity (K)
 Calculating Population Change

▰ Population Size = (Immigrations + births) - (immigrations + deaths)
▻ Ex: An elk pop. of 52 elk has 19 births and 6 deaths in a season, and 5 new
elk immigrate to the herd and 0 elk emigrate from the herd

(19+5) - (6+0) = +18 elk
52 + 18 = 70 elk
37
 FRQ Practice 3.5

Calculate the percent change in the
population size of a 14 wolf pack that
experiences 5 deaths, 3 births, and 4
new wolves released into the pack from
a nearby wildlife sanctuary.
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3.6
Age Structure
Diagrams
Objectives, EKs, and Skills
Age
Cohorts

Age cohorts & growth = groups of similarly aged individuals
0-14 = prereproductive; 15 - 44 = reproductive age; 45 + = post reproductive
Size difference between 0-14 & 15-44 indicates growth rate
○ Larger 0-14 cohort = current & future growth
○ Roughly equal 0-14 & 15-44 = slight growth/stable
○ Larger 15-44 = pop. decline
- Extreme Pyramid shape = rapid growth
- Less extreme pyramid = slow, stable growth
- House = stable, little to no growth
- Narrowest @ base = declining pop.
-
Practice Reading Diagrams
Highest to Lowest Growth Rate
India > US > China > Germany

Number of 0-14 Individuals
- India = 360 million
- US = 62 million
- Germany = 11.5 million
- China = 270 million
 FRQ Practice 3.6

Identify the country with the slowest pop.
growth rate and explain your answer
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3.7
Total Fertility
Rate (TFR)
Objectives, EKs, and Skills
 TFR & Infant Mortality
▰ Total Fertility Rate (TFR): avg. number ▰ Infant Mortality Rate (IMR):
of children a woman in a population will number of deaths of children under
bear throughout her lifetime 1 year per 1,000 people in a pop.
▻ Higher TFR = higher birth rate, ▻ Higher in less developed
higher pop. growth rate (generally) countries due to lack of access
to: health care, clean water,
▰ Replacement Level Fertility: the TFR enough food
required to offset deaths in a pop. and ▰ Higher IMR = higher TFR, due to
keep pop. size stable families having replacement
▻ About 2.1 in developed countries children
(replace mom & dad)
▻ Higher than 2.1 in less developed
countries due to higher infant
mortality
Global TFR Infant Mortality
 Infant Mortality & TFR

Factors in IMR Decline
- Access to clean water - More reliable food supply
- Access to healthcare (hospitals,
vaccines, vitamins & supplements
for moms & babies)
 Factors That Affect TFR
▰ Development (Affluence): more ▰ Gov. Policy: can play a huge role in
developed, or wealthy nations have a fertility by coercive (forceful) or
lower TFR than less developed nations noncoercive (encouraging) policies
▻ More educational access for women ▻ Forced or vol. sterilization
▻ China’s 1 (now 2) child policy
▻ More econ. opportunity for women ▻ Tax incentives to have fewer children
▻ Higher access to family planning ▻ Microcredits or loans to women without
education & contraceptives children to start businesses

▻ Later age of first pregnancy
▻ Less need for children to provide
income through agricultural labor
Affluence & TFR ▰ More access to
contraceptives &
family planning
▰ Ed./econ.
opportunities
require time,
leaving less for
raising children
▰ Lower IMR = lower
TFR
Female Education & TFR ▰ More education =
fewer unplanned
pregnancies
▰ More education =
more job.
opportunities for
women
▻ Alternative to
marrying young
FRQ Practice 3.7

Identify and discuss TWO
of the causes for the trend
in worldwide TFR.
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3.8 - Human Population Dynamics

Thomas Malthus
Objectives, EKs, and Skills
Does Earth Have a Human Carrying Capacity?

Malthusian theory (what Malthus theorized):
- Earth has a human carrying capacity, probably based on
food production
- Human population growth is happening faster than
growth of food production
- Humans will reach a carrying capacity limited by food
Technological Advancement
- Humans can alter earth’s carrying capacity with tech.
Innovation
- Ex: synthetic fixation of Nitrogen in 1918 leads to
synthetic fertilizer, dramatically increasing food
supply
Exponential Increase in Food Supply

60
 Birth Rate, Death Rate, and Growth
▰ Growth Rate (r) = % increase in a population (usually per year)
▻ Ex: a growth rate of 5% for a population of 100 means they grow to 105
▰ Crude Birth Rate & Crude Death Rate (CBR & CDR)
▻ Births & deaths per 1,000 people in a population
▻ Ex: Global CBR = 20 & CDR = 8
▻ Calculating Growth Rate (r)

Divide by 10 because CDR & CDR are per
1,000 and growth rate is % or per 100

Growth rate always expressed as %
 Doubling Time (Rule of 70)
▰ Rule of 70: The time it takes (in years) for a population to double is equal to 70
divided by the growth rate
Ex: Global growth rate = 1.2%
70/1.2 = 58.3 years
Global pop. will double in 58.3 years
 Calculating Population Change
▰ Practice Problem: A country has a CDR of 9 and a
CBR of 18.
▻ Calculate the annual growth rate, and the
doubling time

▰ Solution: (18-9)/10 = 9/10 = 0.9% growth rate
70/0.9% = 77.77 years to double
 Factors Affecting Human Pop. Growth
▰ Factors that increase pop. growth ▰ Factors that decrease population
▻ Higher TFR → higher birth rate growth rate
▻ High death rate
▻ High infant mortality rate can drive
up TFR (replacement children) ▻ High infant mortality rate
▻ Increased development
▻ High immigration level
(education & affluence)
▻ Increased access to clean water & ▻ Increased education for women
healthcare (decrease death rate)
▻ Delayed age of first child
▻ Postponement of marriage age
 Standard of Living Indicators
▰ Standard of Living ▰ Life expectancy = key health
▻ What the quality of life is like for indicator of standard of living
people of a country based ▻ Average age a person will
▰ Gross Domestic Product (GDP) = key live to in a given country
economic indicator of standard of living ▻ Increases with access to
▻ Total value of the goods & clean water, health care,
services produced stable food sources
▻ Per capita GDP is total
GDP/total population

High GDP & life expectancy are both indicators
of development & low pop. growth
 FRQ Practice 3.8

Describe one human activity related to a
rapidly growing human population that is
having an impact on biodiversity.
Propose a solution a government could
take to slow population growth.
3.9
Demographic
Transition
Objectives, EKs, and Skills
 Industrialization
▰ Industrialization: the process of ▰ Industrializing/developing
economic and social transition from an ▻ part way through this transition
agrarian (farming) economy to an ▻ Decreasing death rate & IMR
industrial one (manufacturing based) ▻ Rising GDP

▰ Pre-industrialized/Less developed ▰ Industrialized/developed:
completed the transition
▻ A country that has not yet made the ▻ Very low CDR & IMR
agrarian to industrial transition ▻ Very High GDP
▻ Typically very poor (low GDP) ▻ Low TFR
▻ Typically high death rate & high
infant mortality
▻ High TFR for replacement children &
agricultural labor
Development Status
 Stage 1 - Preindustrial
▰ High IMR & high death rate due to lack of access to
clean water, stable food supply, and healthcare
▰ High TFR due to lack of access to:
▻ Ed. for women
▻ Contraceptives/family planning
▰ Need for child agricultural labor
▰ Little to no growth due to high CBR & CDR balancing
each other out
Ex: Virtually no country is in phase 1
 Stage 2 - Industrializing/Developing
▰ Modernizations brings access to clean ▰ Econ./societal Indicators
water, healthcare, stable food supply ▻ Low per capita GDP
▻ IMR & CDR decline ▻ Shorter life-expectancy
▰ TFR remains high due to ▻ High infant mortality
▻ Lack of ed. for women & ▻ High TFR
contraceptives/family planning ▻ Low literacy rate & school life
▻ Need for child agricultural labor expectancy for girls
▻ Generational lag ( takes time for ed.
& societal change to spread
▰ Rapid growth, due to high CBR and
declining CDR
 Stage 3 - Developed/Industrialized
▰ Modernized economy and society ▰ Econ./societal Indicators
increase family income, so TFR declines ▻ High per capita GDP
significantly due to ▻ Long life-expectancy
▻ More ed. opportunities for women ▻ Low infant mortality
▻ Delayed age of marriage & first child ▻ TFR near replacement level
to focus on ed./career (2.1)
▻ Access to family planning & ▻ High literacy rate & school life
contraceptives expectancy for all
▰ Slowing growth rate as CBR drops
closer to CDR
 Stage 4 - Post-Industrialized/Highly
Developed ▰ Econ./Societal Indicators
▰ Highly modernized countries that are ▻ Very high per capita GDP
very affluent ▻ Longest life-expectancy
▻ TFR declines even further as ▻ TFR below replacement level
families become more wealthy and (2.1)
spend even more time on
educational & career pursuits ▻ Highest contraceptive use
rates
▻ Increased wealth & education brings
even more prevalent use of family
planning & contraception
▰ CBR drops lower that CDR & growth
becomes negative (pop. decline)
Stages & Development
▰ 1 = pre-industrial
▰ 2 = developing
▰ 3= Developed
▰ 4 = Highly developed

75
 FRQ Practice 3.9

Identify the stage of this graph in which population
grows the fastest and explain why this is the case.
Besides population growth rate, describe one
economic or societal indicator of a country in this
phase.